Data processing systems for generating and populating a data inventory

ABSTRACT

In particular embodiments, a data processing data inventory generation system is configured to: (1) generate a data model (e.g., a data inventory) for one or more data assets utilized by a particular organization; (2) generate a respective data inventory for each of the one or more data assets; and (3) map one or more relationships between one or more aspects of the data inventory, the one or more data assets, etc. within the data model. In particular embodiments, a data asset (e.g., data system, software application, etc.) may include, for example, any entity that collects, processes, contains, and/or transfers personal data (e.g., such as a software application, “internet of things” computerized device, database, website, data-center, server, etc.). For example, a first data asset may include any software or device (e.g., server or servers) utilized by a particular entity for such data collection, processing, transfer, storage, etc.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent applicationSer. No. 15/996,208, filed Jun. 1, 2018, which claims priority from U.S.Provisional Patent Application Ser. No. 62/537,839 filed Jul. 27, 2017,and which is also a continuation-in-part of U.S. patent application Ser.No. 15/853,674, filed Dec. 22, 2017, which claims priority from U.S.Provisional Patent Application Ser. No. 62/541,613, filed Aug. 4, 2017,and which is also a continuation-in-part of U.S. patent application Ser.No. 15/619,455, filed Jun. 10, 2017, which is a continuation-in-part ofSer. No. 15/254,901, filed Sep. 1, 2016; which claims priority from: (1)U.S. Provisional Patent Application Ser. No. 62/360,123, filed Jul. 8,2016; (2) U.S. Provisional Patent Application Ser. No. 62/353,802, filedJun. 23, 2016; and (3) U.S. Provisional Patent Application Ser. No.62/348,695, filed Jun. 10, 2016, the entire disclosures of which arehereby incorporated by reference in their entirety.

BACKGROUND

Over the past years, privacy and security policies, and relatedoperations have become increasingly important. Breaches in security,leading to the unauthorized access of personal data (which may includesensitive personal data) have become more frequent among companies andother organizations of all sizes. Such personal data may include, but isnot limited to, personally identifiable information (PII), which may beinformation that directly (or indirectly) identifies an individual orentity. Examples of PII include names, addresses, dates of birth, socialsecurity numbers, and biometric identifiers such as a person'sfingerprints or picture. Other personal data may include, for example,customers' Internet browsing habits, purchase history, or even theirpreferences (e.g., likes and dislikes, as provided or obtained throughsocial media).

Many organizations that obtain, use, and transfer personal data,including sensitive personal data, have begun to address these privacyand security issues. To manage personal data, many companies haveattempted to implement operational policies and processes that complywith legal and industry requirements. However, there is an increasingneed for improved systems and methods to manage personal data in amanner that complies with such policies.

SUMMARY

A data processing data inventory generation system, according to variousembodiments, comprises: (1) one or more processors; (2) computer memory;and (3) a computer-readable medium storing computer-executableinstructions. In various embodiments, the computer-executableinstructions—when executed by the one or more processors, cause the oneor more processors to perform operations comprising: (1) identifying aprimary data asset that collects or stores personal data of one or moredata subjects; and (2) generating a data inventory for the primary dataasset, the data inventory storing one or more primary data assetinventory attributes. In particular embodiments, the one or more primarydata asset inventory attributes comprise: (1) a type of personal datacollected or stored by the primary data asset; and (2) primary transferdata associated with the personal data and the primary data asset. Inparticular embodiments, the computer-executable instructions, whenexecuted by the one or more processors, further cause the one or moreprocessors to perform operations comprising: (1) identifying a transferdata asset based at least in part on the primary transfer data; (2)modifying the data inventory to include the transfer data asset, thetransfer data asset storing one or more transfer data asset inventoryattributes comprising the primary transfer data; (3) digitally storingthe data inventory in the computer memory; and (4) electronicallylinking the primary data asset to the transfer data asset in the datainventory.

A computer-implemented data processing method of generating a datainventory for a plurality of inter-related data assets utilized in theprocessing of one or more pieces of personal data, according to variousembodiments, comprises: (1) identifying, by one or more processors, fromthe plurality of inter-related data assets, a storage asset, the storageasset storing the one or more pieces of personal data collected from oneor more data subjects; (2) identifying, by one or more processors, fromthe plurality of inter-related data assets, a collection asset thattransfers the one or more pieces of personal data to the storage asset;(3) identifying, by one or more processors, from the plurality ofinter-related data assets, a transfer asset to which the storage assettransfers the one or more pieces personal data; (4) digitally storing,by one or more processors, in computer memory, one or more storage assetinventory attributes comprising a type of personal data stored by thestorage asset; (5) digitally storing, by one or more processors, incomputer memory, one or more collection asset inventory attributescomprising the one or more pieces of personal data that the collectionasset transfers to the storage asset; (6) digitally storing, by one ormore processors, in computer memory, one or more transfer assetinventory attributes comprising the one or more pieces of personal datathat the storage asset transfers to the transfer asset; and (7)generating the data inventory.

In particular embodiments, generating the data inventory comprises: (1)associating the storage asset with the one or more storage assetinventory attributes in computer memory; (2) associating the collectionasset with the one or more collection asset inventory attributes incomputer memory; (3) associating the transfer asset with the one or moretransfer asset inventory attributes in computer memory; (4)electronically linking the collection asset to the storage asset incomputer memory; (5) electronically linking the storage asset to thetransfer asset; and (6) electronically mapping the one or more pieces ofpersonal data to the collection asset, the storage asset, and thetransfer asset.

A computer-implemented data processing method for generating a datamodel of personal data processing activities, according to particularembodiments, comprises: (1) generating a data model for one or more dataassets used in the collection or storage of personal data; (2) digitallystoring the data model in computer memory; (3) identifying a first dataasset of the one or more data assets; (4) modifying the data model toinclude the first data asset; (5) generating a data inventory for thefirst data asset in the data model; (6) associating the data inventorywith the first data asset in computer memory; and (7) mapping the firstdata asset to at least one of the one or more data assets in the datamodel. In various embodiments, the data inventory comprises one or moreinventory attributes such as, for example: (1) one or more processingactivities associated with the first data asset; (2) transfer dataassociated with the first data asset; and (3) one or more pieces ofpersonal data associated with the first asset.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments of a data model generation and population system aredescribed below. In the course of this description, reference will bemade to the accompanying drawings, which are not necessarily drawn toscale, and wherein:

FIG. 1 depicts a data model generation and population system accordingto particular embodiments.

FIG. 2 is a schematic diagram of a computer (such as the data modelgeneration server 110, or data model population server 120) that issuitable for use in various embodiments of the data model generation andpopulation system shown in FIG. 1.

FIG. 3 is a flowchart showing an example of steps performed by a DataModel Generation Module according to particular embodiments.

FIGS. 4-10 depict various exemplary visual representations of datamodels according to particular embodiments.

FIG. 11 is a flowchart showing an example of steps performed by a DataModel Population Module.

FIG. 12 is a flowchart showing an example of steps performed by a DataPopulation Questionnaire Generation Module.

FIG. 13 is a process flow for populating a data inventory according to aparticular embodiment using one or more data mapping techniques.

FIGS. 14-25 depict exemplary screen displays and graphical userinterfaces (GUIs) according to various embodiments of the system, whichmay display information associated with the system or enable access to,or interaction with, the system by one or more users (e.g., to configurea questionnaire for populating one or more inventory attributes for oneor more data models, complete one or more assessments, etc.).

FIG. 26 is a flowchart showing an example of steps performed by anIntelligent Identity Scanning Module.

FIG. 27 is schematic diagram of network architecture for an intelligentidentity scanning system 2700 according to a particular embodiment.

FIG. 28 is a schematic diagram of an asset access methodology utilizedby an intelligent identity scanning system 2700 in various embodimentsof the system.

FIG. 29 is a flowchart showing an example of a processes performed by aData Subject Access Request Fulfillment Module 2100 according to variousembodiments.

FIGS. 30-31 depict exemplary screen displays and graphical userinterfaces (GUIs) according to various embodiments of the system, whichmay display information associated with the system or enable access to,or interaction with, the system by one or more users (e.g., for thepurpose of submitting a data subject access request or other suitablerequest).

FIGS. 32-35 depict exemplary screen displays and graphical userinterfaces (GUIs) according to various embodiments of the system, whichmay display information associated with the system or enable access to,or interaction with, the system by one or more users (e.g., for thepurpose of flagging one or more risks associated with one or moreparticular questionnaire questions).

DETAILED DESCRIPTION

Various embodiments now will be described more fully hereinafter withreference to the accompanying drawings. It should be understood that theinvention may be embodied in many different forms and should not beconstrued as limited to the embodiments set forth herein. Rather, theseembodiments are provided so that this disclosure will be thorough andcomplete, and will fully convey the scope of the invention to thoseskilled in the art. Like numbers refer to like elements throughout.

Overview

A data model generation and population system, according to particularembodiments, is configured to generate a data model (e.g., one or moredata models) that maps one or more relationships between and/or among aplurality of data assets utilized by a corporation or other entity(e.g., individual, organization, etc.) in the context, for example, ofone or more business processes. In particular embodiments, each of theplurality of data assets (e.g., data systems) may include, for example,any entity that collects, processes, contains, and/or transfers data(e.g., such as a software application, “internet of things” computerizeddevice, database, website, data-center, server, etc.). For example, afirst data asset may include any software or device (e.g., server orservers) utilized by a particular entity for such data collection,processing, transfer, storage, etc.

As shown in FIGS. 4 and 5, in various embodiments, the data model maystore the following information: (1) the organization that owns and/oruses a particular data asset (a primary data asset, which is shown inthe center of the data model in FIG. 4); (2) one or more departmentswithin the organization that are responsible for the data asset; (3) oneor more software applications that collect data (e.g., personal data)for storage in and/or use by the data asset (e.g., or one or more othersuitable collection assets from which the personal data that iscollected, processed, stored, etc. by the primary data asset issourced); (4) one or more particular data subjects (or categories ofdata subjects) that information is collected from for use by the dataasset; (5) one or more particular types of data that are collected byeach of the particular applications for storage in and/or use by thedata asset; (6) one or more individuals (e.g., particular individuals ortypes of individuals) that are permitted to access and/or use the datastored in, or used by, the data asset; (7) which particular types ofdata each of those individuals are allowed to access and use; and (8)one or more data assets (destination assets) that the data istransferred to for other use, and which particular data is transferredto each of those data assets. As shown in FIGS. 6 and 7, the system mayalso optionally store information regarding, for example, which businessprocesses and processing activities utilize the data asset.

In particular embodiments, the data model stores this information foreach of a plurality of different data assets and may include linksbetween, for example, a portion of the model that provides informationfor a first particular data asset and a second portion of the model thatprovides information for a second particular data asset.

In various embodiments, the data model generation and population systemmay be implemented in the context of any suitable privacy managementsystem that is configured to ensure compliance with one or more legal orindustry standards related to the collection and/or storage of privateinformation. In various embodiments, a particular organization,sub-group, or other entity may initiate a privacy campaign or otheractivity (e.g., processing activity) as part of its business activities.In such embodiments, the privacy campaign may include any undertaking bya particular organization (e.g., such as a project or other activity)that includes the collection, entry, and/or storage (e.g., in memory) ofany personal data associated with one or more individuals. In particularembodiments, a privacy campaign may include any project undertaken by anorganization that includes the use of personal data, or any otheractivity that could have an impact on the privacy of one or moreindividuals.

In any embodiment described herein, personal data may include, forexample: (1) the name of a particular data subject (which may be aparticular individual); (2) the data subject's address; (3) the datasubject's telephone number; (4) the data subject's e-mail address; (5)the data subject's social security number; (6) information associatedwith one or more of the data subject's credit accounts (e.g., creditcard numbers); (7) banking information for the data subject; (8)location data for the data subject (e.g., their present or pastlocation); (9) internet search history for the data subject; and/or (10)any other suitable personal information, such as other personalinformation discussed herein. In particular embodiments, such personaldata may include one or more cookies (e.g., where the individual isdirectly identifiable or may be identifiable based at least in part oninformation stored in the one or more cookies).

In particular embodiments, when generating a data model, the system may,for example: (1) identify one or more data assets associated with aparticular organization; (2) generate a data inventory for each of theone or more data assets, where the data inventory comprises informationsuch as: (a) one or more processing activities associated with each ofthe one or more data assets, (b) transfer data associated with each ofthe one or more data assets (data regarding which data is transferredto/from each of the data assets, and which data assets, or individuals,the data is received from and/or transferred to, (c) personal dataassociated with each of the one or more data assets (e.g., particulartypes of data collected, stored, processed, etc. by the one or more dataassets), and/or (d) any other suitable information; and (3) populate thedata model using one or more suitable techniques.

In particular embodiments, the one or more techniques for populating thedata model may include, for example: (1) obtaining information for thedata model by using one or more questionnaires associated with aparticular privacy campaign, processing activity, etc.; (2) using one ormore intelligent identity scanning techniques discussed herein toidentify personal data stored by the system and map such data to asuitable data model, data asset within a data model, etc.; (3) obtaininginformation for the data model from a third-party application (or otherapplication) using one or more application programming interfaces (API);and/or (4) using any other suitable technique.

In particular embodiments, the system is configured to generate andpopulate a data model substantially on the fly (e.g., as the systemreceives new data associated with particular processing activities). Instill other embodiments, the system is configured to generate andpopulate a data model based at least in part on existing informationstored by the system (e.g., in one or more data assets), for example,using one or more suitable scanning techniques described herein.

As may be understood in light of this disclosure, a particularorganization may undertake a plurality of different privacy campaigns,processing activities, etc. that involve the collection and storage ofpersonal data. In some embodiments, each of the plurality of differentprocessing activities may collect redundant data (e.g., may collect thesame personal data for a particular individual more than once), and maystore data and/or redundant data in one or more particular locations(e.g., on one or more different servers, in one or more differentdatabases, etc.). In this way, a particular organization may storepersonal data in a plurality of different locations which may includeone or more known and/or unknown locations. By generating and populatinga data model of one or more data assets that are involved in thecollection, storage and processing of such personal data, the system maybe configured to create a data model that facilitates a straightforwardretrieval of information stored by the organization as desired. Forexample, in various embodiments, the system may be configured to use adata model in substantially automatically responding to one or more dataaccess requests by an individual (e.g., or other organization). In stillother embodiments, such data model generation and population may improvethe functionality of an entity's computing systems by enabling a morestreamlined retrieval of data from the system and eliminating redundantstorage of identical data. Various embodiments of a system forgenerating and populating a data model are described more fully below.

Exemplary Technical Platforms

As will be appreciated by one skilled in the relevant field, the presentinvention may be, for example, embodied as a computer system, a method,or a computer program product. Accordingly, various embodiments may takethe form of an entirely hardware embodiment, an entirely softwareembodiment, or an embodiment combining software and hardware aspects.Furthermore, particular embodiments may take the form of a computerprogram product stored on a computer-readable storage medium havingcomputer-readable instructions (e.g., software) embodied in the storagemedium. Various embodiments may take the form of web-implementedcomputer software. Any suitable computer-readable storage medium may beutilized including, for example, hard disks, compact disks, DVDs,optical storage devices, and/or magnetic storage devices.

Various embodiments are described below with reference to block diagramsand flowchart illustrations of methods, apparatuses (e.g., systems), andcomputer program products. It should be understood that each block ofthe block diagrams and flowchart illustrations, and combinations ofblocks in the block diagrams and flowchart illustrations, respectively,can be implemented by a computer executing computer programinstructions. These computer program instructions may be loaded onto ageneral purpose computer, special purpose computer, or otherprogrammable data processing apparatus to produce a machine, such thatthe instructions which execute on the computer or other programmabledata processing apparatus to create means for implementing the functionsspecified in the flowchart block or blocks.

These computer program instructions may also be stored in acomputer-readable memory that can direct a computer or otherprogrammable data processing apparatus to function in a particularmanner such that the instructions stored in the computer-readable memoryproduce an article of manufacture that is configured for implementingthe function specified in the flowchart block or blocks. The computerprogram instructions may also be loaded onto a computer or otherprogrammable data processing apparatus to cause a series of operationalsteps to be performed on the computer or other programmable apparatus toproduce a computer implemented process such that the instructions thatexecute on the computer or other programmable apparatus provide stepsfor implementing the functions specified in the flowchart block orblocks.

Accordingly, blocks of the block diagrams and flowchart illustrationssupport combinations of mechanisms for performing the specifiedfunctions, combinations of steps for performing the specified functions,and program instructions for performing the specified functions. Itshould also be understood that each block of the block diagrams andflowchart illustrations, and combinations of blocks in the blockdiagrams and flowchart illustrations, can be implemented by specialpurpose hardware-based computer systems that perform the specifiedfunctions or steps, or combinations of special purpose hardware andother hardware executing appropriate computer instructions.

Example System Architecture

FIG. 1 is a block diagram of a Data Model Generation and PopulationSystem 100 according to a particular embodiment. In various embodiments,the Data Model Generation and Population System 100 is part of a privacycompliance system (also referred to as a privacy management system), orother system, which may, for example, be associated with a particularorganization and be configured to aid in compliance with one or morelegal or industry regulations related to the collection and storage ofpersonal data. In some embodiments, the Data Model Generation andPopulation System 100 is configured to: (1) generate a data model basedon one or more identified data assets, where the data model includes adata inventory associated with each of the one or more identified dataassets; (2) identify populated and unpopulated aspects of each datainventory; and (3) populate the unpopulated aspects of each datainventory using one or more techniques such as intelligent identityscanning, questionnaire response mapping, APIs, etc.

As may be understood from FIG. 1, the Data Model Generation andPopulation System 100 includes one or more computer networks 115, a DataModel Generation Server 110, a Data Model Population Server 120, anIntelligent Identity Scanning Server 130, One or More Databases 140 orother data structures, one or more remote computing devices 150 (e.g., adesktop computer, laptop computer, tablet computer, smartphone, etc.),and One or More Third Party Servers 160. In particular embodiments, theone or more computer networks 115 facilitate communication between theData Model Generation Server 110, Data Model Population Server 120,Intelligent Identity Scanning Server 130, One or More Databases 140, oneor more remote computing devices 150 (e.g., a desktop computer, laptopcomputer, tablet computer, smartphone, etc.), and One or More ThirdParty Servers 160. Although in the embodiment shown in FIG. 1, the DataModel Generation Server 110, Data Model Population Server 120,Intelligent Identity Scanning Server 130, One or More Databases 140, oneor more remote computing devices 150 (e.g., a desktop computer, laptopcomputer, tablet computer, smartphone, etc.), and One or More ThirdParty Servers 160 are shown as separate servers, it should be understoodthat in other embodiments, one or more of these servers and/or computingdevices may comprise a single server, a plurality of servers, one ormore cloud-based servers, or any other suitable configuration.

The one or more computer networks 115 may include any of a variety oftypes of wired or wireless computer networks such as the Internet, aprivate intranet, a public switch telephone network (PSTN), or any othertype of network. The communication link between The Intelligent IdentityScanning Server 130 and the One or More Third Party Servers 160 may be,for example, implemented via a Local Area Network (LAN) or via theInternet. In other embodiments, the One or More Databases 140 may bestored either fully or partially on any suitable server or combinationof servers described herein.

FIG. 2 illustrates a diagrammatic representation of a computer 200 thatcan be used within the Data Model Generation and Population System 100,for example, as a client computer (e.g., one or more remote computingdevices 130 shown in FIG. 1), or as a server computer (e.g., Data ModelGeneration Server 110 shown in FIG. 1). In particular embodiments, thecomputer 200 may be suitable for use as a computer within the context ofthe Data Model Generation and Population System 100 that is configuredto generate a data model and map one or more relationships between oneor more pieces of data that make up the model.

In particular embodiments, the computer 200 may be connected (e.g.,networked) to other computers in a LAN, an intranet, an extranet, and/orthe Internet. As noted above, the computer 200 may operate in thecapacity of a server or a client computer in a client-server networkenvironment, or as a peer computer in a peer-to-peer (or distributed)network environment. The Computer 200 may be a personal computer (PC), atablet PC, a set-top box (STB), a Personal Digital Assistant (PDA), acellular telephone, a web appliance, a server, a network router, aswitch or bridge, or any other computer capable of executing a set ofinstructions (sequential or otherwise) that specify actions to be takenby that computer. Further, while only a single computer is illustrated,the term “computer” shall also be taken to include any collection ofcomputers that individually or jointly execute a set (or multiple sets)of instructions to perform any one or more of the methodologiesdiscussed herein.

An exemplary computer 200 includes a processing device 202, a mainmemory 204 (e.g., read-only memory (ROM), flash memory, dynamic randomaccess memory (DRAM) such as synchronous DRAM (SDRAM) or Rambus DRAM(RDRAM), etc.), static memory 206 (e.g., flash memory, static randomaccess memory (SRAM), etc.), and a data storage device 218, whichcommunicate with each other via a bus 232.

The processing device 202 represents one or more general-purposeprocessing devices such as a microprocessor, a central processing unit,or the like. More particularly, the processing device 202 may be acomplex instruction set computing (CISC) microprocessor, reducedinstruction set computing (RISC) microprocessor, very long instructionword (VLIW) microprocessor, or processor implementing other instructionsets, or processors implementing a combination of instruction sets. Theprocessing device 202 may also be one or more special-purpose processingdevices such as an application specific integrated circuit (ASIC), afield programmable gate array (FPGA), a digital signal processor (DSP),network processor, or the like. The processing device 202 may beconfigured to execute processing logic 226 for performing variousoperations and steps discussed herein.

The computer 120 may further include a network interface device 208. Thecomputer 200 also may include a video display unit 210 (e.g., a liquidcrystal display (LCD) or a cathode ray tube (CRT)), an alphanumericinput device 212 (e.g., a keyboard), a cursor control device 214 (e.g.,a mouse), and a signal generation device 216 (e.g., a speaker).

The data storage device 218 may include a non-transitorycomputer-accessible storage medium 230 (also known as a non-transitorycomputer-readable storage medium or a non-transitory computer-readablemedium) on which is stored one or more sets of instructions (e.g.,software instructions 222) embodying any one or more of themethodologies or functions described herein. The software instructions222 may also reside, completely or at least partially, within mainmemory 204 and/or within processing device 202 during execution thereofby computer 200—main memory 204 and processing device 202 alsoconstituting computer-accessible storage media. The softwareinstructions 222 may further be transmitted or received over a network115 via network interface device 208.

While the computer-accessible storage medium 230 is shown in anexemplary embodiment to be a single medium, the term“computer-accessible storage medium” should be understood to include asingle medium or multiple media (e.g., a centralized or distributeddatabase, and/or associated caches and servers) that store the one ormore sets of instructions. The term “computer-accessible storage medium”should also be understood to include any medium that is capable ofstoring, encoding or carrying a set of instructions for execution by thecomputer and that cause the computer to perform any one or more of themethodologies of the present invention. The term “computer-accessiblestorage medium” should accordingly be understood to include, but not belimited to, solid-state memories, optical and magnetic media, etc.

Exemplary System Platform

Various embodiments of a Data Model Generation and Population System 100may be implemented in the context of any suitable system (e.g., aprivacy compliance system). For example, the Data Model Generation andPopulation System 100 may be implemented to analyze a particular companyor other organization's data assets to generate a data model for one ormore processing activities, privacy campaigns, etc. undertaken by theorganization. In particular embodiments, the system may implement one ormore modules in order to at least partially ensure compliance with oneor more regulations (e.g., legal requirements) related to the collectionand/or storage of personal data. Various aspects of the system'sfunctionality may be executed by certain system modules, including aData Model Generation Module 300, Data Model Population Module 1100,Data Population Questionnaire Generation Module 1200, IntelligentIdentity Scanning Module 2600, and Data Subject Access RequestFulfillment Module 2900. These modules are discussed in greater detailbelow.

Although these modules are presented as a series of steps, it should beunderstood in light of this disclosure that various embodiments of theData Model Generation Module 300, Data Model Population Module 1100,Data Population Questionnaire Generation Module 1200, IntelligentIdentity Scanning Module 2600, and Data Subject Access RequestFulfillment Module 2900 described herein may perform the steps describedbelow in an order other than in which they are presented. In still otherembodiments, the Data Model Generation Module 300, Data Model PopulationModule 1100, Data Population Questionnaire Generation Module 1200,Intelligent Identity Scanning Module 2600, and Data Subject AccessRequest Fulfillment Module 2900 may omit certain steps described below.In various other embodiments, the Data Model Generation Module 300, DataModel Population Module 1100, Data Population Questionnaire GenerationModule 1200, Intelligent Identity Scanning Module 2600, and Data SubjectAccess Request Fulfillment Module 2900 may perform steps in addition tothose described (e.g., such as one or more steps described with respectto one or more other modules, etc.).

Data Model Generation Module

In particular embodiments, a Data Model Generation Module 300 isconfigured to: (1) generate a data model (e.g., a data inventory) forone or more data assets utilized by a particular organization; (2)generate a respective data inventory for each of the one or more dataassets; and (3) map one or more relationships between one or moreaspects of the data inventory, the one or more data assets, etc. withinthe data model. In particular embodiments, a data asset (e.g., datasystem, software application, etc.) may include, for example, any entitythat collects, processes, contains, and/or transfers data (e.g., such asa software application, “internet of things” computerized device,database, website, data-center, server, etc.). For example, a first dataasset may include any software or device (e.g., server or servers)utilized by a particular entity for such data collection, processing,transfer, storage, etc.

In particular embodiments, a particular data asset, or collection ofdata assets, may be utilized as part of a particular data processingactivity (e.g., direct deposit generation for payroll purposes). Invarious embodiments, a data model generation system may, on behalf of aparticular organization (e.g., entity), generate a data model thatencompasses a plurality of processing activities. In other embodiments,the system may be configured to generate a discrete data model for eachof a plurality of processing activities undertaken by an organization.

Turning to FIG. 3, in particular embodiments, when executing the DataModel Generation Module 300, the system begins, at Step 310, bygenerating a data model for one or more data assets and digitallystoring the data model in computer memory. The system may, for example,store the data model in the One or More Databases 140 described above(or any other suitable data structure). In various embodiments,generating the data model comprises generating a data structure thatcomprises information regarding one or more data assets, attributes andother elements that make up the data model. As may be understood inlight of this disclosure, the one or more data assets may include anydata assets that may be related to one another. In particularembodiments, the one or more data assets may be related by virtue ofbeing associated with a particular entity (e.g., organization). Forexample, the one or more data assets may include one or more computerservers owned, operated, or utilized by the entity that at leasttemporarily store data sent, received, or otherwise processed by theparticular entity.

In still other embodiments, the one or more data assets may comprise oneor more third party assets which may, for example, send, receive and/orprocess personal data on behalf of the particular entity. These one ormore data assets may include, for example, one or more softwareapplications (e.g., such as Expensify to collect expense information,QuickBooks to maintain and store salary information, etc.).

Continuing to step 320, the system is configured to identify a firstdata asset of the one or more data assets. In particular embodiments,the first data asset may include, for example, any entity (e.g., system)that collects, processes, contains, and/or transfers data (e.g., such asa software application, “internet of things” computerized device,database, website, data-center, server, etc.). For example, the firstdata asset may include any software or device utilized by a particularorganization for such data collection, processing, transfer, etc. Invarious embodiments, the first data asset may be associated with aparticular processing activity (e.g., the first data asset may make upat least a part of a data flow that relates to the collection, storage,transfer, access, use, etc. of a particular piece of data (e.g.,personal data)). Information regarding the first data asset may clarify,for example, one or more relationships between and/or among one or moreother data assets within a particular organization. In a particularexample, the first data asset may include a software applicationprovided by a third party (e.g., a third party vendor) with which theparticular entity interfaces for the purpose of collecting, storing, orotherwise processing personal data (e.g., personal data regardingcustomers, employees, potential customers, etc.).

In particular embodiments, the first data asset is a storage asset thatmay, for example: (1) receive one or more pieces of personal data formone or more collection assets; (2) transfer one or more pieces ofpersonal data to one or more transfer assets; and/or (3) provide accessto one or more pieces of personal data to one or more authorizedindividuals (e.g., one or more employees, managers, or other authorizedindividuals within a particular entity or organization). In a particularembodiment, the first data asset is a primary data asset associated witha particular processing activity around which the system is configuredto build a data model associated with the particular processingactivity.

In particular embodiments, the system is configured to identify thefirst data asset by scanning a plurality of computer systems associatedwith a particular entity (e.g., owned, operated, utilized, etc. by theparticular entity). In various embodiments, the system is configured toidentify the first data asset from a plurality of data assets identifiedin response to completion, by one or more users, of one or morequestionnaires.

Advancing to Step 330, the system generates a first data inventory ofthe first data asset. The data inventory may comprise, for example, oneor more inventory attributes associated with the first data asset suchas, for example: (1) one or more processing activities associated withthe first data asset; (2) transfer data associated with the first dataasset (e.g., how and where the data is being transferred to and/orfrom); (3) personal data associated with the first data asset (e.g.,what type of personal data is collected and/or stored by the first dataasset; how, and from where, the data is collected, etc.); (4) storagedata associated with the personal data (e.g., whether the data is beingstored, protected and deleted); and (5) any other suitable attributerelated to the collection, use, and transfer of personal data. In otherembodiments, the one or more inventory attributes may comprise one ormore other pieces of information such as, for example: (1) the type ofdata being stored by the first data asset; (2) an amount of data storedby the first data asset; (3) whether the data is encrypted; (4) alocation of the stored data (e.g., a physical location of one or morecomputer servers on which the data is stored); etc. In particular otherembodiments, the one or more inventory attributes may comprise one ormore pieces of information technology data related to the first dataasset (e.g., such as one or more pieces of network and/or infrastructureinformation, IP address, MAC address, etc.).

In various embodiments, the system may generate the data inventory basedat least in part on the type of first data asset. For example,particular types of data assets may have particular default inventoryattributes. In such embodiments, the system is configured to generatethe data inventory for the first data asset, which may, for example,include one or more placeholder fields to be populated by the system ata later time. In this way, the system may, for example, identifyparticular inventory attributes for a particular data asset for whichinformation and/or population of data is required as the system buildsthe data model.

As may be understood in light of this disclosure, the system may, whengenerating the data inventory for the first data asset, generate one ormore placeholder fields that may include, for example: (1) theorganization (e.g., entity) that owns and/or uses the first data asset(a primary data asset, which is shown in the center of the data model inFIG. 4); (2) one or more departments within the organization that areresponsible for the first data asset; (3) one or more softwareapplications that collect data (e.g., personal data) for storage inand/or use by the first data asset (e.g., or one or more other suitablecollection assets from which the personal data that is collected,processed, stored, etc. by the first data asset is sourced); (4) one ormore particular data subjects (or categories of data subjects) thatinformation is collected from for use by the first data asset; (5) oneor more particular types of data that are collected by each of theparticular applications for storage in and/or use by the first dataasset; (6) one or more individuals (e.g., particular individuals ortypes of individuals) that are permitted to access and/or use the datastored in, or used by, the first data asset; (7) which particular typesof data each of those individuals are allowed to access and use; and (8)one or more data assets (destination assets) that the data istransferred to from the first data asset, and which particular data istransferred to each of those data assets.

As may be understood in light of this disclosure, the system may beconfigured to generate the one or more placeholder fields based at leastin part on, for example: (1) the type of the first data asset; (2) oneor more third party vendors utilized by the particular organization; (3)a number of collection or storage assets typically associated with thetype of the first data asset; and/or (4) any other suitable factorrelated to the first data asset, its one or more inventory attributes,etc. In other embodiments, the system may substantially automaticallygenerate the one or more placeholders based at least in part on ahierarchy and/or organization of the entity for which the data model isbeing built. For example, a particular entity may have a marketingdivision, legal department, human resources department, engineeringdivision, or other suitable combination of departments that make up anoverall organization. Other particular entities may have furthersubdivisions within the organization. When generating the data inventoryfor the first data asset, the system may identify that the first dataasset will have both an associated organization and subdivision withinthe organization to which it is assigned. In this example, the systemmay be configured to store an indication in computer memory that thefirst data asset is associated with an organization and a departmentwithin the organization.

Next, at Step 340, the system modifies the data model to include thefirst data inventory and electronically links the first data inventoryto the first data asset within the data model. In various embodiments,modifying the data model may include configuring the data model to storethe data inventory in computer memory, and to digitally associate thedata inventory with the first data asset in memory.

FIGS. 4 and 5 show a data model according to a particular embodiment. Asshown in these figures, the data model may store the followinginformation for the first data asset: (1) the organization that ownsand/or uses the first data asset; (2) one or more departments within theorganization that are responsible for the first data asset; (3) one ormore applications that collect data (e.g., personal data) for storage inand/or use by the first data asset; (4) one or more particular datasubjects that information is collected from for use by the first dataasset; (5) one or more collection assets from which the first assetreceives data (e.g., personal data); (6) one or more particular types ofdata that are collected by each of the particular applications (e.g.,collection assets) for storage in and/or use by the first data asset;(7) one or more individuals (e.g., particular individuals, types ofindividuals, or other parties) that are permitted to access and/or usethe data stored in or used by the first data asset; (8) which particulartypes of data each of those individuals are allowed to access and use;and (9) one or more data assets (destination assets) the data istransferred to for other use, and which particular data is transferredto each of those data assets. As shown in FIGS. 6 and 7, the system mayalso optionally store information regarding, for example, which businessprocesses and processing activities utilize the first data asset.

As noted above, in particular embodiments, the data model stores thisinformation for each of a plurality of different data assets and mayinclude one or more links between, for example, a portion of the modelthat provides information for a first particular data asset and a secondportion of the model that provides information for a second particulardata asset.

Advancing to Step 350, the system next identifies a second data assetfrom the one or more data assets. In various embodiments, the seconddata asset may include one of the one or more inventory attributesassociated with the first data asset (e.g., the second data asset mayinclude a collection asset associated with the first data asset, adestination asset or transfer asset associated with the first dataasset, etc.). In various embodiments, as may be understood in light ofthe exemplary data models described below, a second data asset may be aprimary data asset for a second processing activity, while the firstdata asset is the primary data asset for a first processing activity. Insuch embodiments, the second data asset may be a destination asset forthe first data asset as part of the first processing activity. Thesecond data asset may then be associated with one or more seconddestination assets to which the second data asset transfers data. Inthis way, particular data assets that make up the data model may defineone or more connections that the data model is configured to map andstore in memory.

Returning to Step 360, the system is configured to identify one or moreattributes associated with the second data asset, modify the data modelto include the one or more attributes, and map the one or moreattributes of the second data asset within the data model. The systemmay, for example, generate a second data inventory for the second dataasset that comprises any suitable attribute described with respect tothe first data asset above. The system may then modify the data model toinclude the one or more attributes and store the modified data model inmemory. The system may further, in various embodiments, associate thefirst and second data assets in memory as part of the data model. Insuch embodiments, the system may be configured to electronically linkthe first data asset with the second data asset. In various embodiments,such association may indicate a relationship between the first andsecond data assets in the context of the overall data model (e.g.,because the first data asset may serve as a collection asset for thesecond data asset, etc.).

Next, at Step 370, the system may be further configured to generate avisual representation of the data model. In particular embodiments, thevisual representation of the data model comprises a data map. The visualrepresentation may, for example, include the one or more data assets,one or more connections between the one or more data assets, the one ormore inventory attributes, etc.

In particular embodiments, generating the visual representation (e.g.,visual data map) of a particular data model (e.g., data inventory) mayinclude, for example, generating a visual representation that includes:(1) a visual indication of a first data asset (e.g., a storage asset), asecond data asset (e.g., a collection asset), and a third data asset(e.g., a transfer asset); (2) a visual indication of a flow of data(e.g., personal data) from the second data asset to the first data asset(e.g., from the collection asset to the storage asset); (3) a visualindication of a flow of data (e.g., personal data) from the first dataasset to the third data asset (e.g., from the storage asset to thetransfer asset); (4) one or more visual indications of a risk levelassociated with the transfer of personal data; and/or (5) any othersuitable information related to the one or more data assets, thetransfer of data between/among the one or more data assets, access todata stored or collected by the one or more data assets, etc.

In particular embodiments, the visual indication of a particular assetmay comprise a box, symbol, shape, or other suitable visual indicator.In particular embodiments, the visual indication may comprise one ormore labels (e.g., a name of each particular data asset, a type of theasset, etc.). In still other embodiments, the visual indication of aflow of data may comprise one or more arrows. In particular embodiments,the visual representation of the data model may comprise a data flow,flowchart, or other suitable visual representation.

In various embodiments, the system is configured to display (e.g., to auser) the generated visual representation of the data model on asuitable display device.

Exemplary Data Models and Visual Representations of Data Models (e.g.,Data Maps)

FIGS. 4-10 depict exemplary data models according to various embodimentsof the system described herein. FIG. 4, for example, depicts anexemplary data model that does not include a particular processingactivity (e.g., that is not associated with a particular processingactivity). As may be understood from the data model shown in thisfigure, a particular data asset (e.g., a primary data asset) may beassociated with a particular company (e.g., organization), ororganization within a particular company, sub-organization of aparticular organization, etc. In still other embodiments, the particularasset may be associated with one or more collection assets (e.g., one ormore data subjects from whom personal data is collected for storage bythe particular asset), one or more parties that have access to datastored by the particular asset, one or more transfer assets (e.g., oneor more assets to which data stored by the particular asset may betransferred), etc.

As may be understood from FIG. 4, a particular data model for aparticular asset may include a plurality of data elements. Whengenerating the data model for the particular asset, a system may beconfigured to substantially automatically identify one or more types ofdata elements for inclusion in the data model, and automaticallygenerate a data model that includes those identified data elements(e.g., even if one or more of those data elements must remainunpopulated because the system may not initially have access to a valuefor the particular data element). In such cases, the system may beconfigured to store a placeholder for a particular data element untilthe system is able to populate the particular data element with accuratedata.

As may be further understood from FIG. 4, the data model shown in FIG. 4may represent a portion of an overall data model. For example, in theembodiment shown in this figure, the transfer asset depicted may serveas a storage asset for another portion of the data model. In suchembodiments, the transfer asset may be associated with a respective oneor more of the types of data elements described above. In this way, thesystem may generate a data model that may build upon itself to comprisea plurality of layers as the system adds one or more new data assets,attributes, etc.

As may be further understood from FIG. 4, a particular data model mayindicate one or more parties that have access to and/or use of theprimary asset (e.g., storage asset). In such embodiments, the system maybe configured to enable the one or more parties to access one or morepieces of data (e.g., personal data) stored by the storage asset.

As shown in FIG. 4, the data model may further comprise one or morecollection assets (e.g., one or more data assets or individuals fromwhich the storage asset receives data such as personal data). In theexemplary data model (e.g., visual data map) shown in this figure, thecollection assets comprise a data subject (e.g., an individual that mayprovide data to the system for storage in the storage asset) and acollection asset (e.g., which may transfer one or more pieces of datathat the collection asset has collected to the storage asset).

FIG. 5 depicts a portion of an exemplary data model that is populatedfor the primary data asset Gusto. Gusto is a software application that,in the example shown in FIG. 5, may serve as a human resources servicethat contains financial, expense, review, time and attendance,background, and salary information for one or more employees of aparticular organization (e.g., GeneriTech). In the example of FIG. 5,the primary asset (e.g., Gusto) may be utilized by the HR (e.g., HumanResources) department of the particular organization (e.g., GeneriTech).Furthermore, the primary asset, Gusto, may collect financial informationfrom one or more data subjects (e.g., employees of the particularorganization), receive expense information transferred from Expensify(e.g., expensing software), and receive time and attendance datatransferred from Kronos (e.g., timekeeping software). In the exampleshown in FIG. 5, access to the information collected and/or stored byGusto may include, for example: (1) an ability to view and administersalary and background information by HR employees, and (2) an ability toview and administer employee review information by one or more servicemanagers. In the example shown in this figure, personal and other datacollected and stored by Gusto (e.g., salary information, etc.) may betransferred to a company banking system, to QuickBooks, and/or to an HRfile cabinet.

As may be understood from the example shown in FIG. 5, the system may beconfigured to generate a data model based around Gusto that illustratesa flow of personal data utilized by Gusto. The data model in thisexample illustrates, for example, a source of personal data collected,stored and/or processed by Gusto, a destination of such data, anindication of who has access to such data within Gusto, and anorganization and department responsible for the information collected byGusto. In particular embodiments, the data model and accompanying visualrepresentation (e.g., data map) generated by the system as described inany embodiment herein may be utilized in the context of compliance withone or more record keeping requirements related to the collection,storage, and processing of personal data.

FIGS. 6 and 7 depict an exemplary data model and related example that issimilar, in some respects, to the data model and example of FIGS. 4 and5. In the example shown in FIGS. 6 and 7, the exemplary data model andrelated example include a specific business process and processingactivity that is associated with the primary asset (Gusto). In thisexample, the business process is compensation and the specificprocessing activity is direct deposit generation in Gusto. As may beunderstood from this figure, the collection and transfer of data relatedto the storage asset of Gusto is based on a need to generate directdeposits through Gusto in order to compensate employees. Gusto generatesthe information needed to conduct a direct deposit (e.g., financial andsalary information) and then transmits this information to: (1) acompany bank system for execution of the direct deposit; (2) Quickbooksfor use in documenting the direct deposit payment; and (3) HR Filecabinet for use in documenting the salary info and other financialinformation.

As may be understood in light of this disclosure, when generating such adata model, particular pieces of data (e.g., data attributes, dataelements) may not be readily available to the system. In suchembodiment, the system is configured to identify a particular type ofdata, create a placeholder for such data in memory, and seek out (e.g.,scan for and populate) an appropriate piece of data to further populatethe data model. For example, in particular embodiments, the system mayidentify Gusto as a primary asset and recognize that Gusto storesexpense information. The system may then be configured to identify asource of the expense information (e.g., Expensify).

FIG. 8 depicts an exemplary screen display 800 that illustrates a visualrepresentation (e.g., visual data map) of a data model (e.g., a datainventory). In the example shown in FIG. 8, the data map provides avisual indication of a flow of data collected from particular datasubjects (e.g., employees 801). As may be understood from this figure,the data map illustrates that three separate data assets receive data(e.g., which may include personal data) directly from the employees 801.In this example, these three data assets include Kronos 803 (e.g., ahuman resources software application), Workday 805 (e.g., a humanresources software application), and ADP 807 (e.g., a human resourcessoftware application and payment processor). As shown in FIG. 8, thetransfer of data from the employees 801 to these assets is indicated byrespective arrows.

As further illustrated in FIG. 8, the data map indicates a transfer ofdata from Workday 805 to ADP 807 as well as to a Recovery Datacenter 809and a London HR File Center 811. As may be understood in light of thisdisclosure, the Recovery Datacenter 809 and London HR File Center 811may comprise additional data assets in the context of the data modelillustrated by the data map shown in FIG. 8. The Recover Datacenter 809may include, for example, one or more computer servers (e.g., backupservers). The London HR File Center 811 may include, for example, one ormore databases (e.g., such as the One or More Databases 140 shown inFIG. 1). AS shown in FIG. 8, each particular data asset depicted in thedata map may be shown along with a visual indication of the type of dataasset. For example, Kronos 803, Workday 805, and ADP 807 are depictedadjacent a first icon type (e.g., a computer monitor), while RecoverDatacenter 809 and London HR File Center 811 are depicted adjacent asecond and third icon type respectively (e.g., a server cluster and afile folder). In this way, the system may be configured to visuallyindicate, via the data model, particular information related to the datamodel in a relatively minimal manner.

FIG. 9 depicts an exemplary screen display 900 that illustrates a datamap of a plurality of assets 905 in tabular form (e.g., table form). Asmay be understood from this figure, a table that includes one or moreinventory attributes of each particular asset 905 in the table mayindicate, for example: (1) a managing organization 910 of eachrespective asset 905; (2) a hosting location 915 of each respectiveasset 905 (e.g., a physical storage location of each asset 905); (3) atype 920 of each respective asset 905, if known (e.g., a database,software application, server, etc.); (4) a processing activity 925associated with each respective asset 905; and/or (5) a status 930 ofeach particular data asset 905. In various embodiments, the status 930of each particular asset 905 may indicate a status of the asset 905 inthe discovery process. This may include, for example: (1) a “new” statusfor a particular asset that has recently been discovered as an assetthat processes, stores, or collects personal data on behalf of anorganization (e.g., discovered via one or more suitable techniquesdescribed herein); (2) an “in discovery” status for a particular assetfor which the system is populating or seeking to populate one or moreinventory attributes, etc.

FIG. 10 depicts an exemplary data map 1000 that includes an asset map ofa plurality of data assets 1005A-F, which may, for example, be utilizedby a particular entity in the collection, storage, and/or processing ofpersonal data. As may be understood in light of this disclosure, theplurality of data assets 1005A-F may have been discovered using anysuitable technique described herein (e.g., one or more intelligentidentity scanning techniques, one or more questionnaires, one or moreapplication programming interfaces, etc.). In various embodiments, adata inventory for each of the plurality of data assets 1005A-F maydefine, for each of the plurality of data assets 1005A-F a respectiveinventory attribute related to a storage location of the data asset.

As may be understood from this figure, the system may be configured togenerate a map that indicates a location of the plurality of data assets1005A-F for a particular entity. In the embodiment shown in this figure,locations that contain a data asset are indicated by circular indiciathat contain the number of assets present at that location. In theembodiment shown in this figure, the locations are broken down bycountry. In particular embodiments, the asset map may distinguishbetween internal assets (e.g., first party servers, etc.) andexternal/third party assets (e.g., third party owned servers or softwareapplications that the entity utilizes for data storage, transfer, etc.).

In some embodiments, the system is configured to indicate, via thevisual representation, whether one or more assets have an unknownlocation (e.g., because the data model described above may be incompletewith regard to the location). In such embodiments, the system may beconfigured to: (1) identify the asset with the unknown location; (2) useone or more data modeling techniques described herein to determine thelocation (e.g., such as pinging the asset, generating one or morequestionnaires for completion by a suitable individual, etc.); and (3)update a data model associated with the asset to include the location.

Data Model Population Module

In particular embodiments, a Data Model Population Module 1100 isconfigured to: (1) determine one or more unpopulated inventoryattributes in a data model; (2) determine one or more attribute valuesfor the one or more unpopulated inventory attributes; and (3) modify thedata model to include the one or more attribute values.

Turning to FIG. 11, in particular embodiments, when executing the DataModel Population Module 1100, the system begins, at Step 1110, byanalyzing one or more data inventories for each of the one or more dataassets in the data model. The system may, for example, identify one ormore particular data elements (e.g., inventory attributes) that make upthe one or more data inventories. The system may, in variousembodiments, scan one or more data structures associated with the datamodel to identify the one or more data inventories. In variousembodiments, the system is configured to build an inventory of existing(e.g., known) data assets and identify inventory attributes for each ofthe known data assets.

Continuing to Step 1120, the system is configured to determine, for eachof the one or more data inventories, one or more populated inventoryattributes and one or more unpopulated inventory attributes (e.g.,and/or one or more unpopulated data assets within the data model). As aparticular example related to an unpopulated data asset, when generatingand populating a data model, the system may determine that, for aparticular asset, there is a destination asset. In various embodiments,the destination asset may be known (e.g., and already stored by thesystem as part of the data model). In other embodiments, the destinationasset may be unknown (e.g., a data element that comprises thedestination asset may comprise a placeholder or other indication inmemory for the system to populate the unpopulated inventory attribute(e.g., data element).

As another particular example, a particular storage asset may beassociated with a plurality of inventory assets (e.g., stored in a datainventory associated with the storage asset). In this example, theplurality of inventory assets may include an unpopulated inventoryattribute related to a type of personal data stored in the storageasset. The system may, for example, determine that the type of personaldata is an unpopulated inventory asset for the particular storage asset.

Returning to Step 1130, the system is configured to determine, for eachof the one or more unpopulated inventory attributes, one or moreattribute values. In particular embodiments, the system may determinethe one or more attribute values using any suitable technique (e.g., anysuitable technique for populating the data model). In particularembodiments, the one or more techniques for populating the data modelmay include, for example: (1) obtaining data for the data model by usingone or more questionnaires associated with a particular privacycampaign, processing activity, etc.; (2) using one or more intelligentidentity scanning techniques discussed herein to identify personal datastored by the system and then map such data to a suitable data model;(3) using one or more application programming interfaces (API) to obtaindata for the data model from another software application; and/or (4)using any other suitable technique. Exemplary techniques for determiningthe one or more attribute values are described more fully below. Inother embodiments, the system may be configured to use such techniquesor other suitable techniques to populate one or more unpopulated dataassets within the data model.

Next, at Step 1140, the system modifies the data model to include theone or more attribute values for each of the one or more unpopulatedinventory attributes. The system may, for example, store the one or moreattributes values in computer memory, associate the one or moreattribute values with the one or more unpopulated inventory attributes,etc. In still other embodiments, the system may modify the data model toinclude the one or more data assets identified as filling one or morevacancies left within the data model by the unpopulated one or more dataassets.

Continuing to Step 1150, the system is configured to store the modifieddata model in memory. In various embodiments, the system is configuredto store the modified data model in the One or More Databases 140, or inany other suitable location. In particular embodiments, the system isconfigured to store the data model for later use by the system in theprocessing of one or more data subject access requests. In otherembodiments, the system is configured to store the data model for use inone or more privacy impact assessments performed by the system.

Data Model Population Questionnaire Generation Module

In particular embodiments, a Data Population Questionnaire GenerationModule 1200 is configured to generate a questionnaire (e.g., one or morequestionnaires) comprising one or more questions associated with one ormore particular unpopulated data attributes, and populate theunpopulated data attributes based at least in part on one or moreresponses to the questionnaire. In other embodiments, the system may beconfigured to populate the unpopulated data attributes based on one ormore responses to existing questionnaires.

In various embodiments, the one or more questionnaires may comprise oneor more processing activity questionnaires (e.g., privacy impactassessments, data privacy impact assessments, etc.) configured to elicitone or more pieces of data related to one or more undertakings by anorganization related to the collection, storage, and/or processing ofpersonal data (e.g., processing activities). In particular embodiments,the system is configured to generate the questionnaire (e.g., aquestionnaire template) based at least in part on one or more processingactivity attributes, data asset attributes (e.g., inventory attributes),or other suitable attributes discussed herein.

Turning to FIG. 12, in particular embodiments, when executing the DataPopulation Questionnaire Generation Module 1200, the system begins, atStep 1210, by identifying one or more unpopulated data attributes from adata model. The system may, for example, identify the one or moreunpopulated data attributes using any suitable technique describedabove. In particular embodiments, the one or more unpopulated dataattributes may relate to, for example, one or more processing activityor asset attributes such as: (1) one or more processing activitiesassociated with a particular data asset; (2) transfer data associatedwith the particular data asset (e.g., how and where the data storedand/or collected by the particular data asset is being transferred toand/or from); (3) personal data associated with the particular dataassets asset (e.g., what type of personal data is collected and/orstored by the particular data asset; how, and from where, the data iscollected, etc.); (4) storage data associated with the personal data(e.g., whether the data is being stored, protected and deleted); and (5)any other suitable attribute related to the collection, use, andtransfer of personal data by one or more data assets or via one or moreprocessing activities. In other embodiments, the one or more unpopulatedinventory attributes may comprise one or more other pieces ofinformation such as, for example: (1) the type of data being stored bythe particular data asset; (2) an amount of data stored by theparticular data asset; (3) whether the data is encrypted by theparticular data asset; (4) a location of the stored data (e.g., aphysical location of one or more computer servers on which the data isstored by the particular data asset); etc.

Continuing to Step 1220, the system generates a questionnaire (e.g., aquestionnaire template) comprising one or more questions associated withone or more particular unpopulated data attributes. As may be understoodin light of the above, the one or more particulate unpopulated dataattributes may relate to, for example, a particular processing activityor a particular data asset (e.g., a particular data asset utilized aspart of a particular processing activity). In various embodiments, theone or more questionnaires comprise one or more questions associatedwith the unpopulated data attribute. For example, if the data modelincludes an unpopulated data attribute related to a location of a serveron which a particular asset stores personal data, the system maygenerate a questionnaire associated with a processing activity thatutilizes the asset (e.g., or a questionnaire associated with the asset).The system may generate the questionnaire to include one or morequestions regarding the location of the server.

Returning to Step 1230, the system maps one or more responses to the oneor more questions to the associated one or more particular unpopulateddata attributes. The system may, for example, when generating thequestionnaire, associate a particular question with a particularunpopulated data attribute in computer memory. In various embodiments,the questionnaire may comprise a plurality of question/answer pairings,where the answer in the question/answer pairings maps to a particularinventory attribute for a particular data asset or processing activity.

In this way, the system may, upon receiving a response to the particularquestion, substantially automatically populate the particularunpopulated data attribute. Accordingly, at Step 1240, the systemmodifies the data model to populate the one or more responses as one ormore data elements for the one or more particular unpopulated dataattributes. In particular embodiments, the system is configured tomodify the data model such that the one or more responses are stored inassociation with the particular data element (e.g., unpopulated dataattribute) to which the system mapped it at Step 1230. In variousembodiments, the system is configured to store the modified data modelin the One or More Databases 140, or in any other suitable location. Inparticular embodiments, the system is configured to store the data modelfor later use by the system in the processing of one or more datasubject access requests. In other embodiments, the system is configuredto store the data model for use in one or more privacy impactassessments performed by the system.

Continuing to optional Step 1250, the system may be configured to modifythe questionnaire based at least in part on the one or more responses.The system may, for example, substantially dynamically add and/or removeone or more questions to/from the questionnaire based at least in parton the one or more responses (e.g., one or more response received by auser completing the questionnaire). For example, the system may, inresponse to the user providing a particular inventory attribute or newasset, generates additional questions that relate to that particularinventory attribute or asset. The system may, as the system addsadditional questions, substantially automatically map one or moreresponses to one or more other inventory attributes or assets. Forexample, in response to the user indicating that personal data for aparticular asset is stored in a particular location, the system maysubstantially automatically generate one or more additional questionsrelated to, for example, an encryption level of the storage, who hasaccess to the storage location, etc.

In still other embodiments, the system may modify the data model toinclude one or more additional assets, data attributes, inventoryattributes, etc. in response to one or more questionnaire responses. Forexample, the system may modify a data inventory for a particular assetto include a storage encryption data element (which specifies whetherthe particular asset stores particular data in an encrypted format) inresponse to receiving such data from a questionnaire. Modification of aquestionnaire is discussed more fully below with respect to FIG. 13.

Data Model Population via Questionaire Process Flow

FIG. 13 depicts an exemplary process flow 1300 for populating a datamodel (e.g., modifying a data model to include a newly discovered dataasset, populating one or more inventory attributes for a particularprocessing activity or data asset, etc.). In particular, FIG. 13 depictsone or more exemplary data relationships between one or more particulardata attributes (e.g., processing activity attributes and/or assetattributes), a questionnaire template (e.g., a processing activitytemplate and/or a data asset template), a completed questionnaire (e.g.,a processing activity assessment and/or a data asset assessment), and adata inventory (e.g., a processing activity inventory and/or an assetinventory). As may be understood from this figure the system isconfigured to: (1) identify new data assets; (2) generate an assetinventory for identified new data assets; and (3) populate the generatedasset inventories. Systems and methods for populating the generatedinventories are described more fully below.

As may be understood from FIG. 13, a system may be configured to mapparticular processing activity attributes 1320A to each of: (1) aprocessing activity template 1330A; and (2) a processing activity datainventory 1310A. As may be understood in light of this disclosure, theprocessing activity template 1330A may comprise a plurality of questions(e.g., as part of a questionnaire), which may, for example, beconfigured to elicit discovery of one or more new data assets. Theplurality of questions may each correspond to one or more fields in theprocessing activity inventory 1310A, which may, for example, define oneor more inventory attributes of the processing activity.

In particular embodiments, the system is configured to provide aprocessing activity assessment 1340A to one or more individuals forcompletion. As may be understood from FIG. 13, the system is configuredto launch the processing activity assessment 1340A from the processingactivity inventory 1310A and further configured to create the processingactivity assessment 1340A from the processing activity template 1330.The processing activity assessment 1340A may comprise, for example, oneor more questions related to the processing activity. The system may, invarious embodiments, be configured to map one or more responses providedin the processing activity assessment 1340A to one or more correspondingfields in the processing activity inventory 1310A. The system may thenbe configured to modify the processing activity inventory 1310A toinclude the one or more responses, and store the modified inventory incomputer memory. In various embodiments, the system may be configured toapprove a processing activity assessment 1340A (e.g., receive approvalof the assessment) prior to feeding the processing activity inventoryattribute values into one or more fields and/or cells of the inventory.

As may be further understood from FIG. 13, in response to creating a newasset record (e.g., which the system may create, for example, inresponse to a new asset discovery via the processing activity assessment1340A described immediately above, or in any other suitable manner), thesystem may generate an asset inventory 1310B (e.g., a data assetinventory) that defines a plurality of inventory attributes for the newasset (e.g., new data asset).

As may be understood from FIG. 13, a system may be configured to mapparticular asset attributes 1320B to each of: (1) an asset template1330BA; and (2) an asset inventory 1310A. As may be understood in lightof this disclosure, the asset template 1330B may comprise a plurality ofquestions (e.g., as part of a questionnaire), which may, for example, beconfigured to elicit discovery of one or more processing activitiesassociated with the asset and/or one or more inventory attributes of theasset. The plurality of questions may each correspond to one or morefields in the asset inventory 1310B, which may, for example, define oneor more inventory attributes of the asset.

In particular embodiments, the system is configured to provide an assetassessment 1340B to one or more individuals for completion. As may beunderstood from FIG. 13, the system is configured to launch the assetassessment 1340B from the asset inventory 1310B and further configuredto create the asset assessment 1340B from the asset template 1330B. Theasset assessment 1340B may comprise, for example, one or more questionsrelated to the data asset. The system may, in various embodiments, beconfigured to map one or more responses provided in the asset assessment1340B to one or more corresponding fields in the asset inventory 1310B.The system may then be configured to modify the asset inventory 1310B(e.g., and/or a related processing activity inventory 1310A) to includethe one or more responses, and store the modified inventory in computermemory. In various embodiments, the system may be configured to approvean asset assessment 1340B (e.g., receive approval of the assessment)prior to feeding the asset inventory attribute values into one or morefields and/or cells of the inventory.

FIG. 13 further includes a detail view 1350 of a relationship betweenparticular data attributes 1320C with an exemplary data inventory 1310Cand a questionnaire template 1330C. As may be understood from thisdetail view 1350, a particular attribute name may map to a particularquestion title in a template 1330C as well as to a field name in anexemplary data inventory 1310C. In this way, the system may beconfigured to populate (e.g., automatically populate) a field name for aparticular inventory 1310C in response to a user providing a questiontitle as part of a questionnaire template 1330C. Similarly, a particularattribute description may map to a particular question description in atemplate 1330C as well as to a tooltip on a fieldname in an exemplarydata inventory 1310C. In this way, the system may be configured toprovide the tooltip for a particular inventory 1310C that includes thequestion description provided by a user as part of a questionnairetemplate 1330C.

As may be further understood from the detail view 1350 of FIG. 13, aparticular response type may map to a particular question type in atemplate 1330C as well as to a field type in an exemplary data inventory1310C. A particular question type may include, for example, a multiplechoice question (e.g., A, B, C, etc.), a freeform response, an integervalue, a drop down selection, etc. A particular field type may include,for example, a memo field type, a numeric field type, an integer fieldtype, a logical field type, or any other suitable field type. Aparticular data attribute may require a response type of, for example:(1) a name of an organization responsible for a data asset (e.g., a freeform response); (2) a number of days that data is stored by the dataasset (e.g., an integer value); and/or (3) any other suitable responsetype.

In still other embodiments, the system may be configured to map a one ormore attribute values to one or more answer choices in a template 1330Cas well as to one or more lists and/or responses in a data inventory1310C. The system may then be configured to populate a field in the datainventory 1310C with the one or more answer choices provided in aresponse to a question template 1330C with one or more attribute values.

Exemplary Questionnaire Generation and Completion User Experience

FIGS. 14-25 depict exemplary screen displays that a user may encounterwhen generating a questionnaire (e.g., one or more questionnaires and/ortemplates) for populating one or more data elements (e.g., inventoryattributes) of a data model for a data asset and/or processing activity.FIG. 14, for example, depicts an exemplary asset based questionnairetemplate builder 1400. As may be understood from FIG. 14, the templatebuilder may enable a user to generate an asset based questionnairetemplate that includes one or more sections 1420 related to the asset(e.g., asset information, security, disposal, processing activities,etc.). As may be understood in light of this disclosure, the system maybe configured to substantially automatically generate an asset basedquestionnaire template based at least in part on the one or moreunpopulated inventory attributes discussed above. The system may, forexample, be configured to generate a template that is configured topopulate the one or more unpopulated attributes (e.g., by elicitingresponses, via a questionnaire to one or more questions that are mappedto the attributes within the data inventory).

In various embodiments, the system is configured to enable a user tomodify a default template (e.g., or a system-created template) by, forexample, adding additional sections, adding one or more additionalquestions to a particular section, etc. In various embodiments, thesystem may provide one or more tools for modifying the template. Forexample, in the embodiment shown in FIG. 14, the system may provide auser with a draft and drop question template 1410, from which the usermay select a question type (e.g., textbox, multiple choice, etc.).

A template for an asset may include, for example: (1) one or morequestions requesting general information about the asset; (2) one ormore security-related questions about the asset; (3) one or morequestions regarding how the data asset disposes of data that it uses;and/or (4) one or more questions regarding processing activities thatinvolve the data asset. In various embodiments, each of these one ormore sections may comprise one or more specific questions that may mapto particular portions of a data model (e.g., a data map).

FIG. 15 depicts an exemplary screen display of a processing activityquestionnaire template builder 1500. The screen display shown in FIG. 15is similar to the template builder shown in FIG. 14 with respect to thedata asset based template builder. As may be understood from FIG. 15,the template builder may enable a user to generate a processing activitybased questionnaire template that includes one or more sections 1520related to the processing activity (e.g., business process information,personal data, source, storage, destinations, access and use, etc.). Asmay be understood in light of this disclosure, the system may beconfigured to substantially automatically generate a processing activitybased questionnaire template based at least in part on the one or moreunpopulated inventory attributes related to the processing activity(e.g., as discussed above). The system may, for example, be configuredto generate a template that is configured to populate the one or moreunpopulated attributes (e.g., by eliciting responses, via aquestionnaire to one or more questions that are mapped to the attributeswithin the data inventory).

In various embodiments, the system is configured to enable a user tomodify a default template (e.g., or a system-created template) by, forexample, adding additional sections, adding one or more additionalquestions to a particular section, etc. In various embodiments, thesystem may provide one or more tools for modifying the template. Forexample, in the embodiment shown in FIG. 15, the system may provide auser with a draft and drop question template 1510, from which the usermay select a question type (e.g., textbox, multiple choice, assetattributes, data subjects, etc.). The system may be further configuredto enable a user to publish a completed template (e.g., for use in aparticular assessment). In other embodiments, the system may beconfigured to substantially automatically publish the template.

In various embodiments, a template for a processing activity mayinclude, for example: (1) one or more questions related to the type ofbusiness process that involves a particular data asset; (2) one or morequestions regarding what type of personal data is acquired from datasubjects for use by a particular data asset; (3) one or more questionsrelated to a source of the acquired personal data; (4) one or morequestions related to how and/or where the personal data will be storedand/or for how long; (5) one or more questions related to one or moreother data assets that the personal data will be transferred to; and/or(6) one or more questions related to who will have the ability to accessand/or use the personal data.

Continuing to FIG. 16, an exemplary screen display 1600 depicts alisting of assets 1610 for a particular entity. These may, for example,have been identified as part of the data model generation systemdescribed above. As may be understood from this figure, a user mayselect a drop down indicator 1615 to view more information about aparticular asset. In the exemplary embodiment shown in FIG. 16, thesystem stores the managing organization group for the “New Asset”, butis missing some additional information (e.g., such as a description 1625of the asset). In order to fill out the missing inventory attributes forthe “New Asset”, the system, in particular embodiments, is configured toenable a user to select a Send Assessment indicia 1620 in order totransmit an assessment related to the selected asset to an individualtasked with providing one or more pieces of information related to theasset (e.g., a manager, or other individual with knowledge of the one ormore inventory attributes).

In response to the user selecting the Send Assessment indicia 1620, thesystem may create the assessment based at least in part on a templateassociated with the asset, and transmit the assessment to a suitableindividual for completion (e.g., and/or transmit a request to theindividual to complete the assessment).

FIG. 17 depicts an exemplary assessment transmission interface 1700 viawhich a user can transmit one or more assessments for completion. Asshown in this figure, the user may assign a respondent, provide adeadline, indicate a reminder time, and provide one or more commentsusing an assessment request interface 1710. The user may then select aSend Assessment(s) indicia 1720 in order to transmit the assessment.

FIG. 18 depicts an exemplary assessment 1800 which a user may encounterin response to receiving a request to complete the assessment asdescribed above with respect to FIGS. 16 and 17. As shown in FIG. 18,the assessment 1800 may include one or more questions that map to theone or more unpopulated attributes for the asset shown in FIG. 16. Forexample, the one or more questions may include a question related to adescription of the asset, which may include a free form text box 1820for providing a description of the asset. FIG. 19 depicts an exemplaryscreen display 1900 with the text box 1920 completed, where thedescription includes a value of “Value_1”. As shown in FIGS. 18 and 19,the user may have renamed “New Asset” (e.g., which may have included adefault or placeholder name) shown in FIGS. 16 and 17 to “7^(th) Asset.”

Continuing to FIG. 20, the exemplary screen display 2000 depicts thelisting of assets 2010 from FIG. 16 with some additional attributespopulated. For example, the Description 2025 (e.g., “Value_1”) providedin FIG. 19 has been added to the inventory. As may be understood inlight of this disclosure, in response to a user providing thedescription via the assessment shown in FIGS. 18 and 19, the system maybe configured to map the provided description to the attribute valueassociated with the description of the asset in the data inventory. Thesystem may have then modified the data inventory for the asset toinclude the description attribute. In various embodiments, the system isconfigured to store the modified data inventory as part of a data model(e.g., in computer memory).

FIGS. 21-24 depict exemplary screen displays showing exemplary questionsthat make up part of a processing activity questionnaire (e.g.,assessment). FIG. 21 depicts an exemplary interface 2100 for respondingto a first question 2110 and a second question 2120. As shown in FIG.21, the first question 2110 relates to whether the processing activityis a new or existing processing activity. The first question 2110 shownin FIG. 21 is a multiple choice question. The second question 2120relates to whether the organization is conducting the activity on behalfof another organization. As shown in this figure, the second question2120 includes both a multiple choice portion and a free-form responseportion.

As discussed above, in various embodiments, the system may be configuredto modify a questionnaire in response to (e.g., based on) one or moreresponses provided by a user completing the questionnaire. In particularembodiments, the system is configured to modify the questionnairesubstantially on-the-fly (e.g., as the user provides each particularanswer). FIG. 22 depicts an interface 2200 that includes a secondquestion 2220 that differs from the second question 2120 shown in FIG.21. As may be understood in light of this disclosure, in response to theuser providing a response to the first question 2110 in FIG. 21 thatindicates that the processing activity is a new processing activity, thesystem may substantially automatically modify the second question 2120from FIG. 21 to the second question 2220 from FIG. 22 (e.g., such thatthe second question 2220 includes one or more follow up questions orrequests for additional information based on the response to the firstquestion 2110 in FIG. 21).

As shown in FIG. 22, the second question 2220 requests a description ofthe activity that is being pursued. In various embodiments (e.g., suchas if the user had selected that the processing activity was an existingone), the system may not modify the questionnaire to include the secondquestion 2220 from FIG. 22, because the system may already storeinformation related to a description of the processing activity atissue. In various embodiments, any suitable question described hereinmay include a tooltip 2225 on a field name (e.g., which may provide oneor more additional pieces of information to guide a user's response tothe questionnaire and/or assessment).

FIGS. 23 and 24 depict additional exemplary assessment questions. Thequestions shown in these figures relate to, for example, particular dataelements processed by various aspects of a processing activity.

FIG. 25 depicts a dashboard 2500 that includes an accounting of one ormore assessments that have been completed, are in progress, or requirecompletion by a particular organization. The dashboard 2500 shown inthis figure is configured to provide information relate to the status ofone or more outstanding assessments. As may be understood in light ofthis disclosure, because of the volume of assessment requests, it may benecessary to utilize one or more third party organizations to facilitatea timely completion of one or more assessment requests. In variousembodiments, the dashboard may indicate that, based on a fact that anumber of assessments are still in progress or incomplete, that aparticular data model for an entity, data asset, processing activity,etc. remains incomplete. In such embodiments, an incomplete nature of adata model may raise one or more flags or indicate a risk that an entitymay not be in compliance with one or more legal or industry requirementsrelated to the collection, storage, and/or processing of personal data.

Intelligent Identity Scanning Module

Turning to FIG. 26, in particular embodiments, the Intelligent IdentityScanning Module 2600 is configured to scan one or more data sources toidentify personal data stored on one or more network devices for aparticular organization, analyze the identified personal data, andclassify the personal data (e.g., in a data model) based at least inpart on a confidence score derived using one or more machine learningtechniques. The confidence score may be and/or comprise, for example, anindication of the probability that the personal data is actuallyassociated with a particular data subject (e.g., that there is at leastan 80% confidence level that a particular phone number is associatedwith a particular individual.)

When executing the Intelligent Identity Scanning Module 2600, the systembegins, at Step 2610, by connecting to one or more databases or otherdata structures, and scanning the one or more databases to generate acatalog of one or more individuals and one or more pieces of personalinformation associated with the one or more individuals. The system may,for example, be configured to connect to one or more databasesassociated with a particular organization (e.g., one or more databasesthat may serve as a storage location for any personal or other datacollected, processed, etc. by the particular organization, for example,as part of a suitable processing activity. As may be understood in lightof this disclosure, a particular organization may use a plurality of oneor more databases (e.g., the One or More Databases 140 shown in FIG. 1),a plurality of servers (e.g., the One or More Third Party Servers 160shown in FIG. 1), or any other suitable data storage location in orderto store personal data and other data collected as part of any suitableprivacy campaign, privacy impact assessment, processing activity, etc.

In particular embodiments, the system is configured to scan the one ormore databases by searching for particular data fields comprising one ormore pieces of information that may include personal data. The systemmay, for example, be configured to scan and identify one of more piecesof personal data such as: (1) name; (2) address; (3) telephone number;(4) e-mail address; (5) social security number; (6) informationassociated with one or more credit accounts (e.g., credit card numbers);(7) banking information; (8) location data; (9) internet search history;(10) non-credit account data; and/or (11) any other suitable personalinformation discussed herein. In particular embodiments, the system isconfigured to scan for a particular type of personal data (e.g., or oneor more particular types of personal data).

The system may, in various embodiments, be further configured togenerate a catalog of one or more individuals that also includes one ormore pieces of personal information (e.g., personal data) identified forthe individuals during the scan. The system may, for example, inresponse to discovering one or more pieces of personal data in aparticular storage location, identify one or more associations betweenthe discovered pieces of personal data. For example, a particulardatabase may store a plurality of individuals' names in association withtheir respective telephone numbers. One or more other databases mayinclude any other suitable information.

The system may, for example, generate the catalog to include anyinformation associated with the one or more individuals identified inthe scan. The system may, for example, maintain the catalog in anysuitable format (e.g., a data table, etc.).

In still other embodiments, in addition to connecting to a database, thesystem may be configured to: (1) access an application through one ormore application programming interfaces (APIs); (2) use one or morescreen scraping techniques on an end user page to identify and analyzeeach field on the page; and/or (3) connect to any other suitable datastructure in order to generate the catalog of individuals and personalinformation associated with each of the individuals. In someembodiments, the system may be configured to analyze one or more accesslogs and applications set up through a system active directory or SSOportal for which one or more applications might contain certain data foruser groups. The system may then be configured to analyze an emailenvironment to identify one or more links to particular businessapplications, which may, for example, be in use by an entity and containcertain data. In still other embodiments, the system may be configuredto analyze one or more system log files (Syslog) from a securityenvironment to capture which particular applications an entity may beusing in order to discover such applications.

Continuing to Step 2620, the system is configured to scan one or morestructured and/or unstructured data repositories based at least in parton the generated catalog to identify one or more attributes of dataassociated with the one or more individuals. The system may, forexample, be configured to utilize information discovered during theinitial scan at Step 2610 to identify the one or more attributes of dataassociated with the one or more individuals.

For example, the catalog generated at Step 2610 may include a name,address, and phone number for a particular individual. The system may beconfigured, at Step 2620, to scan the one or more structured and/orunstructured data repositories to identify one or more attributes thatare associated with one or more of the particular individual's name,address and/or phone number. For example, a particular data repositorymay store banking information (e.g., a bank account number and routingnumber for the bank) in association with the particular individual'saddress. In various embodiments, the system may be configured toidentify the banking information as an attribute of data associated withthe particular individual. In this way, the system may be configured toidentify particular data attributes (e.g., one or more pieces ofpersonal data) stored for a particular individual by identifying theparticular data attributes using information other than the individual'sname.

Returning to Step 2630, the system is configured to analyze andcorrelate the one or more attributes and metadata for the scanned one ormore structured and/or unstructured data repositories. In particularembodiments, the system is configured to correlate the one or moreattributes with metadata for the associated data repositories from whichthe system identified the one or more attributes. In this way, thesystem may be configured to store data regarding particular datarepositories that store particular data attributes.

In particular embodiments, the system may be configured tocross-reference the data repositories that are discovered to store oneor more attributes of personal data associated with the one or moreindividuals with a database of known data assets. In particularembodiments, the system is configured to analyze the data repositoriesto determine whether each data repository is part of an existing datamodel of data assets that collect, store, and/or process personal data.In response to determining that a particular data repository is notassociated with an existing data model, the system may be configured toidentify the data repository as a new data asset (e.g., via assetdiscovery), and take one or more actions (e.g., such as any suitableactions described herein) to generate and populate a data model of thenewly discovered data asset. This may include, for example: (1)generating a data inventory for the new data asset; (2) populating thedata inventory with any known attributes associated with the new dataasset; (3) identifying one or more unpopulated (e.g., unknown)attributes of the data asset; and (4) taking any suitable actiondescribed herein to populate the unpopulated data attributes.

In particular embodiments, the system my, for example: (1) identify asource of the personal data stored in the data repository that led tothe new asset discovery; (2) identify one or more relationships betweenthe newly discovered asset and one or more known assets; and/or (3) etc.

Continuing to Step 2640, the system is configured to use one or moremachine learning techniques to categorize one or more data elements fromthe generated catalog, analyze a flow of the data among the one or moredata repositories, and/or classify the one or more data elements basedon a confidence score as discussed below.

Continuing to Step 2650, the system, in various embodiments, isconfigured to receive input from a user confirming or denying acategorization of the one or more data elements, and, in response,modify the confidence score. In various embodiments, the system isconfigured to iteratively repeat Steps 2640 and 2650. In this way, thesystem is configured to modify the confidence score in response to auser confirming or denying the accuracy of a categorization of the oneor more data elements. For example, in particular embodiments, thesystem is configured to prompt a user (e.g., a system administrator,privacy officer, etc.) to confirm that a particular data element is, infact, associated with a particular individual from the catalog. Thesystem may, in various embodiments, be configured to prompt a user toconfirm that a data element or attribute discovered during one or moreof the scans above were properly categorized at Step 2640.

In particular embodiments, the system is configured to modify theconfidence score based at least in part on receiving one or moreconfirmations that one or more particular data elements or attributesdiscovered in a particular location during a scan are associated withparticular individuals from the catalog. As may be understood in lightof this disclosure, the system may be configured to increase theconfidence score in response to receiving confirmation that particulartypes of data elements or attributes discovered in a particular storagelocation are typically confirmed as being associated with particularindividuals based on one or more attributes for which the system wasscanning.

Exemplary Intelligent Identity Scanning Technical Platforms

FIG. 27 depicts an exemplary technical platform via which the system mayperform one or more of the steps described above with respect to theIntelligent Identity Scanning Module 2600. As shown in the embodiment inthis figure, an Intelligent Identity Scanning System 2600 comprises anIntelligent Identity Scanning Server 130, such as the IntelligentIdentity Scanning Server 130 described above with respect to FIG. 1. TheIntelligent Identity Scanning Server 130 may, for example, comprise aprocessing engine (e.g., one or more computer processors). In someembodiments, the Intelligent Identity Scanning Server 130 may includeany suitable cloud hosted processing engine (e.g., one or morecloud-based computer servers). In particular embodiments, theIntelligent Identity Scanning Server 130 is hosted in a Microsoft Azurecloud.

In particular embodiments, the Intelligent Identity Scanning Server 130is configured to sit outside one or more firewalls (e.g., such as thefirewall 195 shown in FIG. 26). In such embodiments, the IntelligentIdentity Scanning Server 130 is configured to access One or More RemoteComputing Devices 150 through the Firewall 195 (e.g., one or morefirewalls) via One or More Networks 115 (e.g., such as any of the One orMore Networks 115 described above with respect to FIG. 1).

In particular embodiments, the One or More Remote Computing Devices 150include one or more computing devices that make up at least a portion ofone or more computer networks associated with a particular organization.In particular embodiments, the one or more computer networks associatedwith the particular organization comprise one or more suitable servers,one or more suitable databases, one or more privileged networks, and/orany other suitable device and/or network segment that may store and/orprovide for the storage of personal data. In the embodiment shown inFIG. 27, the one or more computer networks associated with theparticular organization may comprise One or More Third Party Servers160, One or More Databases 140, etc. In particular embodiments, the Oneor More Remote Computing Devices 150 are configured to access one ormore segments of the one or more computer networks associated with theparticular organization. In some embodiments, the one or more computernetworks associated with the particular organization comprise One orMore Privileged Networks 165. In still other embodiments, the one ormore computer networks comprise one or more network segments connectedvia one or more suitable routers, one or more suitable network hubs, oneor more suitable network switches, etc.

As shown in FIG. 27, various components that make up one or more partsof the one or more computer networks associated with the particularorganization may store personal data (e.g., such as personal data storedon the One or More Third Party Servers 160, the One or More Databases140, etc.). In various embodiments, the system is configured to performone or more steps related to the Intelligent Identity Scanning Server2600 in order to identify the personal data for the purpose ofgenerating the catalog of individuals described above (e.g., and/oridentify one or more data assets within the organization's network thatstore personal data)

As further shown in FIG. 27, in various embodiments, the One or MoreRemote Computing Devices 150 may store a software application (e.g., theIntelligent Identity Scanning Module). In such embodiments, the systemmay be configured to provide the software application for installationon the One or More Remote Computing Devices 150. In particularembodiments, the software application may comprise one or more virtualmachines. In particular embodiments, the one or more virtual machinesmay be configured to perform one or more of the steps described abovewith respect to the Intelligent Identity Scanning Module 2600 (e.g.,perform the one or more steps locally on the One or More RemoteComputing Devices 150).

In various embodiments, the one or more virtual machines may have thefollowing specifications: (1) any suitable number of cores (e.g., 4, 6,8, etc.); (2) any suitable amount of memory (e.g., 4 GB, 8 GB, 16 GBetc.); (3) any suitable operating system (e.g., CentOS 7.2); and/or (4)any other suitable specification. In particular embodiments, the one ormore virtual machines may, for example, be used for one or more suitablepurposes related to the Intelligent Identity Scanning System 2700. Theseone or more suitable purposes may include, for example, running any ofthe one or more modules described herein, storing hashed and/ornon-hashed information (e.g., personal data, personally identifiabledata, catalog of individuals, etc.), storing and running one or moresearching and/or scanning engines (e.g., Elasticsearch), etc.

In various embodiments, the Intelligent Identity Scanning System 2700may be configured to distribute one or more processes that make up partof the Intelligent Identity Scanning Process (e.g., described above withrespect to the Intelligent Identity Scanning Module 1800). The one ormore software applications installed on the One or more Remote ComputingDevices 150 may, for example, be configured to provide access to the oneor more computer networks associated with the particular organization tothe Intelligent Identity Scanning Server 130. The system may then beconfigured to receive, from the One or more Remote Computing Devices 150at the Intelligent Identity Scanning Server 130, via the Firewall 195and One or More Networks 115, scanned data for analysis.

In particular embodiments, the Intelligent Identity Scanning System 2700is configured to reduce an impact on a performance of the One or MoreRemote Computing Devices 150, One or More Third Party Servers 160 andother components that make up one or more segments of the one or morecomputer networks associated with the particular organization. Forexample, in particular embodiments, the Intelligent Identity ScanningSystem 2700 may be configured to utilize one or more suitable bandwidththrottling techniques. In other embodiments, the Intelligent IdentityScanning System 2700 is configured to limit scanning (e.g., any of theone or more scanning steps described above with respect to theIntelligent Identity Scanning Module 2600) and other processing steps(e.g., one or more steps that utilize one or more processing resources)to non-peak times (e.g., during the evening, overnight, on weekendsand/or holidays, etc.). In other embodiments, the system is configuredto limit performance of such processing steps to backup applications anddata storage locations. The system may, for example, use one or moresampling techniques to decrease a number of records required to scanduring the personal data discovery process.

FIG. 28 depicts an exemplary asset access methodology that the systemmay utilize in order to access one or more network devices that maystore personal data (e.g., or other personally identifiableinformation). As may be understood from this figure, the system may beconfigured to access the one or more network devices using a locallydeployed software application (e.g., such as the software applicationdescribed immediately above). In various embodiments, the softwareapplication is configured to route identity scanning traffic through oneor more gateways, configure one or more ports to accept one or moreidentity scanning connections, etc.

As may be understood from this figure, the system may be configured toutilize one or more credential management techniques to access one ormore privileged network portions. The system may, in response toidentifying particular assets or personally identifiable information viaa scan, be configured to retrieve schema details such as, for example,an asset ID, Schema ID, connection string, credential reference URL,etc. In this way, the system may be configured to identify and store alocation of any discovered assets or personal data during a scan.

Data Subject Access Request Fulfillment Module

Turning to FIG. 29, in particular embodiments, a Data Subject AccessRequest Fulfillment Module 2900 is configured to receive a data subjectaccess request, process the request, and fulfill the request based atleast in part on one or more request parameters. In various embodiments,an organization, corporation, etc. may be required to provideinformation requested by an individual for whom the organization storespersonal data within a certain time period (e.g., 30 days). As aparticular example, an organization may be required to provide anindividual with a listing of, for example: (1) any personal data thatthe organization is processing for an individual, (2) an explanation ofthe categories of data being processed and the purpose of suchprocessing; and/or (3) categories of third parties to whom the data maybe disclosed.

Various privacy and security policies (e.g., such as the EuropeanUnion's General Data Protection Regulation, and other such policies) mayprovide data subjects (e.g., individuals, organizations, or otherentities) with certain rights related to the data subject's personaldata that is collected, stored, or otherwise processed by anorganization. These rights may include, for example: (1) a right toobtain confirmation of whether a particular organization is processingtheir personal data; (2) a right to obtain information about the purposeof the processing (e.g., one or more reasons for which the personal datawas collected); (3) a right to obtain information about one or morecategories of data being processed (e.g., what type of personal data isbeing collected, stored, etc.); (4) a right to obtain information aboutone or more categories of recipients with whom their personal data maybe shared (e.g., both internally within the organization or externally);(5) a right to obtain information about a time period for which theirpersonal data will be stored (e.g., or one or more criteria used todetermine that time period); (6) a right to obtain a copy of anypersonal data being processed (e.g., a right to receive a copy of theirpersonal data in a commonly used, machine-readable format); (7) a rightto request erasure (e.g., the right to be forgotten), rectification(e.g., correction or deletion of inaccurate data), or restriction ofprocessing of their personal data; and (8) any other suitable rightsrelated to the collection, storage, and/or processing of their personaldata (e.g., which may be provided by law, policy, industry ororganizational practice, etc.).

As may be understood in light of this disclosure, a particularorganization may undertake a plurality of different privacy campaigns,processing activities, etc. that involve the collection and storage ofpersonal data. In some embodiments, each of the plurality of differentprocessing activities may collect redundant data (e.g., may collect thesame personal data for a particular individual more than once), and maystore data and/or redundant data in one or more particular locations(e.g., on one or more different servers, in one or more differentdatabases, etc.). In this way, a particular organization may storepersonal data in a plurality of different locations which may includeone or more known and/or unknown locations. As such, complying withparticular privacy and security policies related to personal data (e.g.,such as responding to one or more requests by data subjects related totheir personal data) may be particularly difficult (e.g., in terms ofcost, time, etc.). In particular embodiments, a data subject accessrequest fulfillment system may utilize one or more data model generationand population techniques (e.g., such as any suitable techniquedescribed herein) to create a centralized data map with which the systemcan identify personal data stored, collected, or processed for aparticular data subject, a reason for the processing, and any otherinformation related to the processing.

Turning to FIG. 21, when executing the Data Subject Access RequestModule 2100, the system begins, at Step 2110, by receiving a datasubject access request. In various embodiments, the system receives therequest via a suitable web form. In certain embodiments, the requestcomprises a particular request to perform one or more actions with anypersonal data stored by a particular organization regarding therequestor. For example, in some embodiments, the request may include arequest to view one or more pieces of personal data stored by the systemregarding the requestor. In other embodiments, the request may include arequest to delete one or more pieces of personal data stored by thesystem regarding the requestor. In still other embodiments, the requestmay include a request to update one or more pieces of personal datastored by the system regarding the requestor. In still otherembodiments, the request may include a request based on any suitableright afforded to a data subject, such as those discussed above.

Continuing to Step 2120, the system is configured to process the requestby identifying and retrieving one or more pieces of personal dataassociated with the requestor that are being processed by the system.For example, in various embodiments, the system is configured toidentify any personal data stored in any database, server, or other datarepository associated with a particular organization. In variousembodiments, the system is configured to use one or more data models,such as those described above, to identify this personal data andsuitable related information (e.g., where the personal data is stored,who has access to the personal data, etc.). In various embodiments, thesystem is configured to use intelligent identity scanning (e.g., asdescribed above) to identify the requestor's personal data and relatedinformation that is to be used to fulfill the request.

In still other embodiments, the system is configured to use one or moremachine learning techniques to identify such personal data. For example,the system may identify particular stored personal data based on, forexample, a country in which a website that the data subject request wassubmitted is based, or any other suitable information.

In particular embodiments, the system is configured to scan and/orsearch one or more existing data models (e.g., one or more current datamodels) in response to receiving the request in order to identify theone or more pieces of personal data associated with the requestor. Thesystem may, for example, identify, based on one or more data inventories(e.g., one or more inventory attributes) a plurality of storagelocations that store personal data associated with the requestor. Inother embodiments, the system may be configured to generate a data modelor perform one or more scanning techniques in response to receiving therequest (e.g., in order to automatically fulfill the request).

Returning to Step 2130, the system is configured to take one or moreactions based at least in part on the request. In some embodiments, thesystem is configured to take one or more actions for which the requestwas submitted (e.g., display the personal data, delete the personaldata, correct the personal data, etc.). In particular embodiments, thesystem is configured to take the one or more actions substantiallyautomatically. In particular embodiments, in response a data subjectsubmitting a request to delete their personal data from anorganization's systems, the system may: (1) automatically determinewhere the data subject's personal data is stored; and (2) in response todetermining the location of the data (which may be on multiple computingsystems), automatically facilitate the deletion of the data subject'spersonal data from the various systems (e.g., by automatically assigninga plurality of tasks to delete data across multiple business systems toeffectively delete the data subject's personal data from the systems).In particular embodiments, the step of facilitating the deletion maycomprise, for example: (1) overwriting the data in memory; (2) markingthe data for overwrite; (2) marking the data as free (e.g., and deletinga directory entry associated with the data); and/or (3) any othersuitable technique for deleting the personal data. In particularembodiments, as part of this process, the system uses an appropriatedata model (see discussion above) to efficiently determine where all ofthe data subject's personal data is stored.

Data Subject Access Request User Experience

FIGS. 30-31 depict exemplary screen displays that a user may view whensubmitting a data subject access request. As shown in FIG. 30, a website30000 associated with a particular organization may include auser-selectable indicia 3005 for submitting a privacy-related request. Auser desiring to make such a request may select the indicia 3005 inorder to initiate the data subject access request process.

FIG. 31 depicts an exemplary data subject access request form in both anunfilled and filled out state. As shown in this figure, the system mayprompt a user to provide information such as, for example: (1) what typeof requestor the user is (e.g., employee, customer, etc.); (2) what therequest involves (e.g., requesting info, opting out, deleting data,updating data, etc.); (3) first name; (4) last name; (5) email address;(6) telephone number; (7) home address; and/or (8) one or more detailsassociated with the request.

As discussed in more detail above, a data subject may submit a subjectaccess request, for example, to request a listing of any personalinformation that a particular organization is currently storingregarding the data subject, to request that the personal data bedeleted, to opt out of allowing the organization to process the personaldata, etc.

Alternative Embodiment

In particular embodiments, a data modeling or other system describedherein may include one or more features in addition to those described.Various such alternative embodiments are described below.

Processing Activity and Data Asset Assessment Risk Flagging

In particular embodiments, the questionnaire template generation systemand assessment system described herein may incorporate one or more riskflagging systems. FIGS. 32-35 depict exemplary user interfaces thatinclude risk flagging of particular questions within a processingactivity assessment. As may be understood from these figures, a user mayselect a flag risk indicia to provide input related to a description ofrisks and mitigation of a risk posed by one or more inventory attributesassociated with the question. As shown in these figures, the system maybe configured to substantially automatically assign a risk to aparticular response to a question in a questionnaire. In variousembodiments, the assigned risk is determined based at least in part onthe template from which the assessment was generated.

In particular embodiments, the system may utilize the risk levelassigned to particular questionnaire responses as part of a riskanalysis of a particular processing activity or data asset. Varioustechniques for assessing the risk of various privacy campaigns aredescribed in U.S. patent application Ser. No. 15/256,419, filed Sep. 2,2016, entitled “Data processing systems and methods for operationalizingprivacy compliance and assessing the risk of various respective privacycampaigns,” which is hereby incorporated herein in its entirety.

CONCLUSION

Although embodiments above are described in reference to various privacycompliance monitoring systems, it should be understood that variousaspects of the system described above may be applicable to otherprivacy-related systems, or to other types of systems, in general.

While this specification contains many specific embodiment details,these should not be construed as limitations on the scope of anyinvention or of what may be claimed, but rather as descriptions offeatures that may be specific to particular embodiments of particularinventions. Certain features that are described in this specification inthe context of separate embodiments may also be implemented incombination in a single embodiment. Conversely, various features thatare described in the context of a single embodiment may also beimplemented in multiple embodiments separately or in any suitablesub-combination. Moreover, although features may be described above asacting in certain combinations and even initially claimed as such, oneor more features from a claimed combination may in some cases be excisedfrom the combination, and the claimed combination may be directed to asub-combination or variation of a sub-combination.

Similarly, while operations are depicted in the drawings in a particularorder, this should not be understood as requiring that such operationsbe performed in the particular order shown or in sequential order, orthat all illustrated operations be performed, to achieve desirableresults. In certain circumstances, multitasking and parallel processingmay be advantageous. Moreover, the separation of various systemcomponents in the embodiments described above should not be understoodas requiring such separation in all embodiments, and it should beunderstood that the described program components and systems maygenerally be integrated together in a single software product orpackaged into multiple software products.

Many modifications and other embodiments of the invention will come tomind to one skilled in the art to which this invention pertains havingthe benefit of the teachings presented in the foregoing descriptions andthe associated drawings. Therefore, it is to be understood that theinvention is not to be limited to the specific embodiments disclosed andthat modifications and other embodiments are intended to be includedwithin the scope of the appended claims. Although specific terms areemployed herein, they are used in a generic and descriptive sense onlyand not for the purposes of limitation.

What is claimed is:
 1. A data processing data inventory populationsystem comprising; one or more processors; computer memory; and acomputer-readable medium storing computer-executable instructions that,when executed by the one or more processors, cause the one or moreprocessors to perform operations comprising: accessing a data model of aplurality of data assets used in the collection or storage of personaldata, the data model defining one or more electronic links between theplurality of data assets and storing a plurality of data inventoriesthat define a plurality of inventory attributes for each of theplurality of data assets; identifying a first data inventory from theplurality of data inventories, each of the plurality of data inventoriesbeing associated with a respective data asset, wherein the first datainventory comprises a plurality of fields that each define a respectiveinventory attribute of a first data asset associated with the first datainventory; determining, for each respective one of the plurality offields of the first data inventory, whether the respective field is apopulated inventory attribute field containing an attribute value forone of the plurality of inventory attributes, or an unpopulatedinventory attribute field not containing an attribute value for one ofthe plurality of inventory attributes; determining, for each respectiveone of the one or more unpopulated inventory attribute fields, one ormore attribute values for use in populating the respective unpopulatedinventory attribute field, wherein determining the one or more attributevalues comprises: retrieving a data asset questionnaire template,analyzing the data asset questionnaire template to identify one or morequestions that each respectively map to one or more of the plurality ofinventory attributes, generating a first data asset assessment based atleast in part on the one or more questions that map to the one or moreof the plurality of inventory attributes, and determining the one ormore attribute values based at least in part on the first data assetassessment; in response to determining the one or more attribute valuesfor each of the one or more unpopulated inventory attribute fields,modifying the first data inventory to include the one or more attributevalues for each of the one or more unpopulated inventory attributefields by populating each of the plurality of unpopulated inventoryattribute fields with a respective one of the determined attributevalues; and storing the modified first data inventory in computermemory.
 2. The data processing data inventory population system of claim1, wherein determining the one or more attribute values furthercomprises: receiving one or more responses to the one or more questions.3. The data processing data inventory population system of claim 1,wherein: the one or more attribute values comprise a second data asset;the plurality of data assets do not comprise the second data asset; andthe computer-readable medium further stores computer-executableinstructions that, when executed by the one or more processors, causethe one or more processors to perform operations comprising: generatinga second data inventory for the second data asset, the second datainventory storing one or more second data asset inventory attributescomprising: the first data asset, and a type of personal data collectedor stored by the second data asset; modifying the data model to includethe second data asset and the second data inventory; storing themodified data model in the computer memory; and linking the first dataasset to the second data asset in the data model.
 4. The data processingdata inventory population system of claim 1, wherein determining the oneor more attribute values comprises determining the one or more attributevalues using one or more intelligent identity scanning means.
 5. Thedata processing data inventory population system of claim 1, wherein:the computer-readable medium further stores computer-executableinstructions that, when executed by the one or more processors, causethe one or more processors to perform operations comprising: using anapplication programming interface to access a third-party informationtechnology system; and integrating the data processing data inventorypopulation system with the third-party information technology system viathe application programming interface; and determining the one or moreattribute values comprises determining the one or more attribute valuesby retrieving the one or more attribute values from the third-partyinformation technology system.
 6. The data processing data inventorypopulation system of claim 1, wherein the computer-readable mediumfurther stores computer-executable instructions that, when executed bythe one or more processors, cause the one or more processors to performoperations comprising: scanning one or more data repositories toidentify one or more data attributes; analyzing the one or more dataattributes and correlating metadata for the scanned one or more datarepositories with particular attributes of the one or more dataattributes discovered in the one or more data repositories; using one ormore machine learning techniques to categorize the one or more dataattributes based at least in part on a confidence score; and determiningthe one or more attribute values based on the one or more dataattributes.
 7. The data processing data inventory population system ofclaim 1, wherein the one or more populated inventory attributes compriseone or more known attributes.
 8. The data processing data inventorypopulation system of claim 1, wherein determining the one or moreattribute values comprises determining the one or more attribute valuesusing a combination of an application programming interface and a datarepository scanning system.
 9. A computer-implemented data processingmethod of feeding a data inventory with one or more data attributevalues, the method comprising: generating, by one or more processors, adata inventory for one or more data assets used in a collection ofpersonal data; storing, by the one or more processors, the datainventory in a computer memory; modifying, by the one or moreprocessors, the data inventory to include one or more data fields thateach define a respective data inventory attribute of a plurality of datainventory attributes; determining, by the one or more processors, whichof the one or more data fields of the data inventory are unpopulateddata fields; determining, by the one or more processors, a respectivedata inventory attribute value for each of the unpopulated data fields,wherein determining the respective data inventory attribute value foreach of the unpopulated data fields comprises: linking each respectivedata inventory attribute to each of: an associated respective questionof a plurality of questions in a template, and an associated respectivedata field of the unpopulated data fields, storing an indication of theelectronic linking in the computer memory, creating an assessment basedat least in part on a data asset questionnaire template, the assessmentcomprising the plurality of questions, receiving, from a user, one ormore responses to the assessment comprising a respective response toeach of the plurality of questions, determining the respective datainventory attribute value for each respective one of the unpopulateddata fields based at least in part on the respective response therespective one of the plurality of questions, the associated respectivequestion, and the associated respective data field; and in response todetermining the respective data inventory attribute value for each ofthe unpopulated data fields, modifying each of the unpopulated datafields to include the respective data inventory attribute value; andstoring the modified data inventory in the computer memory.
 10. Thecomputer-implemented data processing method of claim 9, the methodfurther comprising: filling, by one or more processors, the respectiveunpopulated data fields based at least in part on the respectiveresponse to each of the plurality of questions, the associatedrespective question, and the associated respective data field; andstoring, by one or more processors, the data inventory along with thefilled data fields in computer memory.
 11. The computer-implemented dataprocessing method of claim 10, further comprising filling each of theunpopulated data fields with a respective data inventory attribute valuedetermined based at least in part on the respective response to theplurality of questions.
 12. The computer-implemented data processingmethod of claim 10, further comprising: using an application programminginterface to access a third-party information technology system;receiving one or more pieces of data from the third-party informationtechnology system; and filling, by one or more processors, theunpopulated data fields based at least in part on the one or more piecesof data.
 13. The computer-implemented data processing method of claim 9,wherein determining the respective data inventory attribute value foreach of the unpopulated data fields comprises: providing a softwareapplication for installation on a computing device that is networkedwith one or more data repositories associated with an organization; andproviding a communication channel between one or more remote scanningservers and the software application, wherein: the software applicationis configured to communicate with the one or more remote scanningservers through a firewall; and the software application is configuredto scan the one or more data repositories to identify each respectivedata inventory attribute value stored in the one or more datarepositories and transmit each respective data inventory attribute valueto the one or more remote scanning servers via the communicationchannel.
 14. The computer-implemented data processing method of claim 9,the method further comprising: scanning one or more data repositories onone or more remote computing devices to identify one or more dataattributes; analyzing the one or more data attributes and correlatingmetadata for the scanned one or more data repositories with particularattributes of the one or more data attributes discovered in the one ormore data repositories; using one or more machine learning techniques tocategorize the one or more data attributes based at least in part on aconfidence score; analyzing a data flow of the particular dataattributes between the one or more data repositories; and identifyingeach respective data inventory attribute value for each of theunpopulated data fields from the one or more data attributes.
 15. Thecomputer-implemented data processing method of claim 14, wherein the oneor more remote computing devices comprise one or more remote computingdevices that make up a network of computing devices associated with aparticular organization.
 16. The computer-implemented data processingmethod of claim 9, wherein generating the data inventory for the one ormore data assets or used in the collection of personal data comprisesgenerating the data inventory for a plurality of inter-related dataassets utilized in the processing of one or more pieces of personaldata, and further comprises: identifying, by one or more processors,from the plurality of inter-related data assets, a storage asset, thestorage asset storing the one or more pieces of personal data collectedfrom one or more data subjects; identifying, by one or more processors,from the plurality of inter-related data assets, a collection asset thattransfers the one or more pieces of personal data to the storage asset;identifying, by one or more processors, from the plurality ofinter-related data assets, a transfer asset to which the storage assettransfers the one or more pieces of personal data; storing, by one ormore processors, in computer memory, one or more storage asset inventoryattributes comprising a type of personal data stored by the storageasset; storing, by one or more processors, in computer memory, one ormore collection asset inventory attributes comprising the one or morepieces of personal data that the collection asset transfers to thestorage asset; storing, by one or more processors, in computer memory,one or more transfer asset inventory attributes comprising the one ormore pieces of personal data that the storage asset transfers to thetransfer asset; and generating the data inventory by: associating thestorage asset with the one or more storage asset inventory attributes incomputer memory; associating the collection asset with the one or morecollection asset inventory attributes in computer memory; associatingthe transfer asset with the one or more transfer asset inventoryattributes in computer memory; linking the collection asset to thestorage asset in computer memory; linking the storage asset to thetransfer asset; and mapping the one or more pieces of personal data tothe collection asset, the storage asset, and the transfer asset.
 17. Thecomputer-implemented data processing method of claim 16, whereindetermining the respective data inventory attribute value for each ofthe unpopulated data fields comprises determining at least one datainventory attribute selected from a group consisting of: the one or morestorage asset inventory attributes; the one or more collection assetinventory attributes; and the one or more transfer asset inventoryattributes.
 18. The computer-implemented data processing method of claim9, the method further comprising: generating a questionnaire comprisingone or more questions associated with each of the unpopulated datafields using one or more questionnaire generation means; mapping one ormore responses to the one or more questions to the associatedunpopulated data fields using one or more electronic linking means;modifying the data inventory to populate the one or more responses asone or more data attributes for the unpopulated data fields using one ormore data population means; and optionally modifying the questionnairebased at least in part on the one or more responses substantially on thefly using one or more questionnaire modification means.